Connecting Structure for Hand-Operated Tools and Handles

ABSTRACT

This invention is generally directed to a new connecting structure for connecting the bodies of hand-operated tools to their handles. It solves the technical difficulty in standardizing the connection of hand-operated tools and handles. The technical strategy involves separating the connecting structure to the connecting segment and handle fix segment. The axial opening of the handle fix segment fits the shape of handle, and handle is installed into the handle fix segment. The present invention has the advantages of simple design, convenience for mass manufacture, ease and reliability in connecting, assembling, and adjusting standardized connection process, and cost-efficiency in production and transportation.

RELATED APPLICATION

This application claims the benefit of Peoples' Republic of China application Serial No. 200710139669.9, filed Oct. 30, 2007, hereby specifically incorporated by reference in its entirety.

FIELD OF THE INVENTION

This invention is generally directed to a new connecting structure for hand-operated tools and handles. This document details the configuration of the connecting structure that connects the hand-operated tools and handles and provides a suitable manufacturing process.

BACKGROUND OF THE INVENTION

Hand-operated tools, such as shovels, picks, hoes, and rakes, are commonly used in both businesses and daily living activities. The conventional way to connect a handle with a tool has been to fit the front tip of the handle to the connecting structure by cutting and assembling the handle into the connecting structure of the tool. The stability of the connection depends on how the handle tip fits with the connecting structure. Sometimes nails or screws are used to increase the stability. Such connecting structures are usually manufactured in the same process as the tools, and this increases the production difficulty. It is usually an inconvenient task to fit the handle with the connecting structure of the tool. Moreover, the connection between the handle and connecting structure usually loosens with time, and it is not easy, sometimes impossible, to refit or readjust the connection. A handle is usually discarded when part of the hand-operated tool with which it was connected is broken, which not only is wasteful but also becomes an environmental burden. Another shortcoming of the current method for connecting hand-operated tools is that the handles and tools are often connected in a factory with shapes and sizes that are usually inconvenient for transportation.

Often, handles are constructed out of wood to fit the tool better. However, the limitation of wood as a resource has forced manufactures to look for other materials, such as plastic and other nonmetal synthetic materials, as possible alternative handle materials. Recently, plastic and other nonmetal synthetic materials have been used extensively because they have the advantages of lightness, strength and elasticity, durability, and recyclability. An improvement to the method of fitting the connecting structure with the handle, such as the present invention, will make tremendous improvements to the manufacturing of hand-operated tools. Moreover, it will enable the fitting process to be conducted away from the manufacturing site, solving the problem of difficulty in transportation due to the peculiar shape of the assembled tool and easing the readjustment of the connection whenever necessary. Finally, the materials used for handles, wood, plastic and other nonmetal synthetic materials, would be recyclable and environmental friendly.

SUMMARY OF THE INVENTION

This invention is directed to a new connecting structure for hand-operated tools and handles, aiming to overcome the technical difficulty in non-standardized connections of hand-operated tools and handles. Technical approaches in the present invention include separating the whole hand-operated tool to parts, including the functional body, handle, and the handle connecting structure that connects the function body and handle. One end of the connecting structure is the connection segment, used to fasten and connect to the function part; the other end is the handle fix segment which connects to the handle through the insertion of the handle into an axial opening in the handle fix segment.

The transverse section of the handle fix segment takes the shape of an arch with circumference longer than half of the handle perimeter. In order to have the handle receive strength evenly, a reinforcing splint with an arch shape is designed and employed. The handle is clamped between the handle fix segment and the handle reinforce splint, with all three fixed together by a connecting bolt.

The present invention has the advantages of a simple design, reliable connection between handle and the handle fix segment, convenience in adjusting the connection whenever necessary, conductivity to standardized and mass production, and ease of handle production in materials other than wood, not only reducing the cost in manufacturing but also solving many transportation difficulties.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a structural diagram of the present invention in a shovel.

FIG. 2 is an A-A section schematic diagram of FIG. 1.

FIG. 3 is a B-B section schematic diagram of FIG. 1.

FIG. 4 is a schematic diagram of a handle.

FIG. 5 is a structural diagram of the present invention in a pronged tool.

FIG. 6 is a structural diagram of the present invention in a pick or a hoe.

Elements in the figures are represented by the numbers as follows; 1—function body of the hand-operated tool, 2—connecting segment of the connection structure, 3—handle fix segment, 4—handle, 5—connecting bolt, 6—arch shaped reinforcing splint, 7—locating plunger.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

As shown in FIG. 1, the shovel consists of a function body 1 (shovel), handle 4, and the connecting structure integrated with the function body. The function body 1 (shovel) integrates the connection segment 2 with the connecting structure. To fit the handle, the handle fix segment 3 is designed with a barrel-shape axial opening, handle 4 is inserted and fixed in the handle fix segment 3, and through the connecting structure, the function body 1 is connected together with the handle 4.

The present connection structure is lengthened, in comparison to the conventional connection structure, to ease the manufacturing of the connection structure. The handle fix segment 3 is produced with a barrel-shape axial opening to facilitate the assembly and fastening of the handle fix segment 3 and handle 4.

As shown in FIGS. 1 and 3, the transverse section of the handle fix segment 3 takes the shape of an arch with circumference length longer than half of the perimeter of the handle 4. Handle 4 is inserted to the handle fix segment 3 arch, and the handle 4 is fastened with the handle fix segment 3 by the connecting bolt 5.

As shown in FIGS. 2 and 3, the present invention includes a design of a arch shaped reinforcing splint 6 to even the strength of the handle 4. The arch circumference length of the arch shaped reinforcing splint 6 is shorter than half of the handle 4 perimeter. A double arch transition form is used to fit the arch shaped reinforcing splint 6 and the connecting segment 2. The handle fix segment 3 and the arch shaped reinforcing splint 6 hold the handle 4, and the three parts are fixed together by a connecting bolt 5. The arch shaped reinforcing splint 6 enhances the handle fix segment 3 and prolongs the lifetime of the tool.

As shown in FIG. 3, the present invention uses a square head of bolt 5 and square nut in the handle fix segment 3 to prevent the bolt from loosening from repeated usage. The square head and square nut at arch shaped reinforcing splint 6 prevent the bolt 5 from moving out of place.

In the connection structure of present invention, handle 4 takes a tubular shape. In order to have the tubular handle 4 fit with the handle fix segment 3 properly, an arch shape locating plunger 7 in the connecting end of the handle is designed. The locating plunger 7 is inserted into connection segment 2. The locating plunger 7 helps to fasten the handle 4.

According to the manufacture's discretion, the locating plunger 7 and handle 4 can be produced separately or jointly. The user needs to connect the locating plunger 7 with handle 4 if they are produced separately.

In order to increase frictional resistance between locating plunger 7 and connection segment 2, a group of annular embossments on the surface of locating plunger 7 is designed.

The connection structure for hand-operated tool in the present invention can be used in shovels, picks, hoes, and rakes as shown in the figures. The structure can also be used in other tools such as garden scissors, mops, etc.

By employing the present invention, the connection between hand-operated tool and its handle can be standardized. In addition, the connection can be applied and adjusted in any working field through the connecting bolt 5, and defective function body of a hand-operated tool or handle can be replaced easily. 

1. A connecting structure for connecting a hand-operated tool body and a handle, wherein said connecting structure is integrated with said hand-operated tool body, comprising: a connection segment, and a handle fix segment, wherein said handle fix segment has a barrel shape opening to correspond to the shape of said handle, and said handle is capable of fastening to said handle fix segment by insertion into said handle fix segment.
 2. The connecting structure of claim 1 wherein the transverse section of said handle fix segment is arch shaped, with a circumference length longer than half of the handle perimeter, and further comprising a connecting bolt such that said handle is attached to said handle fix segment by said connecting bolt.
 3. The connecting structure of claim 2 further comprising: an arch shaped reinforcing splint, wherein the arch circumference length of said arch shaped reinforcing splint is shorter than half of the perimeter of said handle, and said handle fix segment and said arch shaped reinforcing splint hold the handle.
 4. The connecting structure of claim 2 wherein an end of said connecting bolt takes a square shape, in accordance with the shape of a bolt nut set in said handle fix segment.
 5. The connecting structure of claim 1 wherein said handle takes the shape of a straight tube.
 6. The connecting structure of claim 1 wherein said handle has a cone-shaped connecting end.
 7. The connecting structure of claim 5 wherein said handle has a cone-shaped connecting end.
 8. The connecting structure of claim 5 wherein said handle has at one end a group of annular embossments on the surface 